Proceedings ArticleDOI
Design of Printed Dipole Antenna for Enhanced Coverage Efficiency
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TLDR
In this article, a four port dipole antenna array at sub-6 GHz band (3400-3600 MHz) for mobile phone application with enhanced coverage efficiency is presented.Abstract:
A four port dipole antenna array at sub-6 GHz band (3400-3600 MHz) for mobile phone application with enhanced coverage efficiency is presented in this paper. Here a method for characterizing multiple dipole antenna in a cellular handset has been introduced. Coverage efficiency is studied for the antenna topology for its performance analysis. The array consists of four antennas placed along the four edges of the substrate. The dipole antennas placed at the oppositely faced edges are similar in dimension i.e. antenna 1 & 3 and antenna 2 & 4 are of same dimension and thus the antenna in opposite locations radiate in same manner. A common ground plane is used at the center of the substrate to isolate the antennas and also reduces mutual coupling between the antennas. The ground plane also helps in increasing the gain of the antenna. The dipole antennas 1 and 3 exhibit a fractional bandwidth of 8.47% and gain of 3.8 dBi providing vertical polarization and the dipole antennas 2 and 4 exhibit a fractional bandwidth of 6.2% and gain of 6.1 dBi providing horizontal polarization. Thereby the proposed array covers most part of the azimuthal plane. This antenna system may find its application in 5G MIMO systems particularly in smartphone applications at sub-6 GHz band.read more
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Journal ArticleDOI
Surface Mountable Compact Printed Dipole Antenna for GPS/WiMAX Applications
TL;DR: In this article, a low-profile, electrically compact, and cost-effective antenna for wireless communication is presented, which comprises self-complementary dipole elements on each side of the resonator surface.
References
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Journal ArticleDOI
What Will 5G Be
Jeffrey G. Andrews,Stefano Buzzi,Wan Choi,Stephen V. Hanly,Angel Lozano,Anthony C. K. Soong,Jianzhong Charlie Zhang +6 more
TL;DR: This paper discusses all of these topics, identifying key challenges for future research and preliminary 5G standardization activities, while providing a comprehensive overview of the current literature, and in particular of the papers appearing in this special issue.
Journal ArticleDOI
Correlation and capacity of MIMO systems and mutual coupling, radiation efficiency, and diversity gain of their antennas: simulations and measurements in a reverberation chamber
Per-Simon Kildal,Kent Rosengren +1 more
TL;DR: This work explains how MIMO and diversity antennas with mutual coupling can be analyzed by classical embedded element patterns that can be computed by standard computer codes and how the radiation efficiency, diversity gain, correlation, and channel capacity can be measured in a reverberation chamber.
Journal ArticleDOI
12-Port 5G Massive MIMO Antenna Array in Sub-6GHz Mobile Handset for LTE Bands 42/43/46 Applications
TL;DR: The results show that the proposed antenna array can still exhibit good radiation and MIMO performances when operating under data mode and read mode conditions.
Journal ArticleDOI
Performance Analysis of Millimeter-Wave Phased Array Antennas in Cellular Handsets
TL;DR: The results show the importance of evaluating potential array antennas in such manners, and the method can be applied to much more complex system models, where polarization diversity, hand and body effect, and statistical modeling of the channel may be included.
Journal ArticleDOI
Eight-element antenna array for diversity and mimo mobile terminal in LTE 3500 MHz band
TL;DR: Two sets of eight‐element antenna structures based on capacitive coupling element and inverted‐F antennas operating at 3400–3600 MHz long‐term evolution frequency band are designed and are estimated to achieve a good effective diversity gain in both uniform and nonuniform environments.